Test report HAC part 1

FCC ID: SRQ-Z6530V

Test Report

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FCCID_4395545

         HAC RF EMISSIONS TEST REPORT                                                   Report No. : HA971010A




         HEARING AID COMPATIBILITY
         RF EMISSIONS TEST REPORT
 FCC ID                 : SRQ-Z6530V
 Equipment              : LTE Digital Mobile Phone
 Brand Name             : ZTE
 Model Name             : Z6530V
 M-Rating               : M4
 Applicant              : ZTE CORPORATION
                          ZTE Plaza, Keji Road South, Hi-Tech, Industrial Park,
                          Nanshan District,Shenzhen, Guangdong, 518057, P.R.China
 Manufacturer           : ZTE CORPORATION
                          ZTE Plaza, Keji Road South, Hi-Tech, Industrial Park,
                          Nanshan District,Shenzhen, Guangdong, 518057, P.R.China
 Standard               : FCC 47 CFR §20.19
                          ANSI C63.19-2011


      The product was received on Jul. 11, 2019 and testing was started from Jul. 18, 2019 and
      completed on Jul. 18, 2019. We, SPORTON INTERNATIONAL INC., would like to declare that
      the tested sample has been evaluated in accordance with the test procedures and has been
      in compliance with the applicable technical standards.

      The report must not be used by the client to claim product certification, approval, or
      endorsement by TAF or any agency of government.

      The test results in this report apply exclusively to the tested model / sample. Without
      written approval of SPORTON INTERNATIONAL INC. EMC & Wireless Communications
      Laboratory, the test report shall not be reproduced except in full.




      Approved by: Cona Huang / Deputy Manager



SPORTON INTERNATIONAL INC. EMC & Wireless Communications Laboratory
                       No. 52, Huaya 1st Rd., Guishan Dist., Taoyuan City, Taiwan (R.O.C.)




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             HAC RF EMISSIONS TEST REPORT                                                                                                       Report No. : HA971010A

                                                                Table of Contents
1.    General Information ................................................................................................................................................... 4
2.    Testing Location......................................................................................................................................................... 5
3.    Applied Standards ..................................................................................................................................................... 5
4.    RF Audio Interference Level...................................................................................................................................... 5
5.    Air Interface and Operating Mode............................................................................................................................. 6
6.    Measurement System Specification ......................................................................................................................... 7
      6.1     E-Field Probe System ....................................................................................................................................... 7
      6.2     Data Storage and Evaluation ............................................................................................................................ 8
7.    RF Emissions Test Procedure................................................................................................................................... 9
8.    Test Equipment List ..................................................................................................................................................12
9.    Measurement System Validation .............................................................................................................................13
10.   Modulation Interference Factor................................................................................................................................14
11.   Low-power Exemption ..............................................................................................................................................15
12.   Conducted RF Output Power (Unit: dBm) ...............................................................................................................16
13.   HAC RF Emission Test Results ................................................................................................................................16
14.   Uncertainty Assessment ..........................................................................................................................................17
15.   References .................................................................................................................................................................19

Appendix A. Plots of System Performance Check
Appendix B. Plots of RF Emission Measurement
Appendix C. DASY Calibration Certificate
Appendix D. Test Setup Photos




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         HAC RF EMISSIONS TEST REPORT                                Report No. : HA971010A


                         History of this test report
      Report No.       Version                    Description              Issued Date

      HA971010A        Rev. 01   Initial issue of report                   Aug. 08, 2019




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         HAC RF EMISSIONS TEST REPORT                                          Report No. : HA971010A
1. General Information
                                   Product Feature & Specification
Applicant Name         ZTE CORPORATION
Equipment Name         LTE Digital Mobile Phone
Brand Name             ZTE
Model Name             Z6530V
FCC ID                 SRQ-Z6530V
HW Version             Z6530VHW1.0
SW Version             Z6530VV1.0.0B01
EUT Stage              Identical Prototype
Date Tested            2019/07/18
                       LTE Band 2: 1850.7 MHz ~ 1909.3 MHz
                       LTE Band 4: 1710.7 MHz ~ 1754.3 MHz
                       LTE Band 5: 824.7 MHz ~ 848.3 MHz
                       LTE Band 13: 779.5 MHz ~ 784.5 MHz
Frequency Band         LTE Band 66: 1710.7 MHz ~ 1779.3 MHz
                       WLAN 2.4GHz Band: 2412 MHz ~ 2462 MHz
                       WLAN 5.2GHz Band: 5180 MHz ~ 5240 MHz
                       WLAN 5.8GHz Band: 5745 MHz ~ 5825 MHz
                       Bluetooth: 2402 MHz ~ 2480 MHz
                       LTE: QPSK, 16QAM, 64QAM
Mode                   WLAN: 802.11b/g/n/ac HT20/HT40/VHT20/VHT40/VHT80
                       Bluetooth BR/EDR/LE

Reviewed by: Jason Wang
Report Producer: Wan Liu




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seortron ias._HAC RF EMISSIONS TEST REPORT                                                       Report No. : HA971010A
  2. Testing Location
  Sporton Lab is accredited to ISO 17025 by Taiwan Accreditation Foundation (TAF code: 1190) and the FCC designation
  No. TW 1190 under the FCC 2.948(e) by Mutual Recognition Agreement (MRA) in FCC test.

                                                    Testing Laboratory
  [Csc                                SPORTON INTERNATIONAL INC.
                                      No. 52, Huaya 1st Rd., Guishan Dist., Taoyuan City, Taiwan (R.0.C.)
  Test Site Location                  TEL: +886—3—327—3456
                                      FAX: +886—3—328—4978
    B                                 Sporton Site No.:
  1Cc                                 SAROA—HY




  3. Applied Standards
    +    FCC CFR47 Part 20.19
    +    ANSIC63.19—2011
    +    FCC KDB 285076 DO1 HAC Guidance v05
    +_ FCC KDB 285076 DO2 T Coil testing v03
    +__FCC KDB 285076 D03 HAC FAQ v01




  4. RF Audio Interference Level
  FCC wireless hearing aid compatibility rules ensure that consumers with hearing loss are able to access wireless
  communications services through a wide selection of handsets without experiencing disabling radio frequency (RF)
  interference or other technical obstacles.
  To define and measure the hearing aid compatibility of handsets, in CFR47 part 20.19 ANSI €63.19 is referenced.
  A handset is considered hearing aid—compatible for acoustic coupling if it meets a rating of at least M3 under ANSI
  C63.19, and A handset is considered hearing aid compatible for inductive coupling if it meets a rating of at least T3.
  According to ANSI €63.19 2011 version, for acoustic coupling, the RF electric field emissions of wireless
  communication devices should be measured and rated according to the emission level as below.

                                                                    E—field emissions
     Emission Categories
                                               <960Mhz                               >960Mhz
                M1i                        50 to 55 dB (V/m)                     40 to 45 dB (V/m)
                M2                         45 to 50 dB (V/m)                     35 to 40 dB (V/m)
                M3                         40 to 45 dB (V/m)                     30 to 35 dB (V/m)
                M4                           <40 dB (V/m)                          <30 dB (V/m)
                             Table 5.1 Telephone near—field categories in linear units




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            HAC RF EMISSIONS TEST REPORT                                                             Report No. : HA971010A
5. Air Interface and Operating Mode
   Air                                          C63.19               Simultaneous               Name of Voice       Power
Interface       Band MHz            Type
                                                Tested                Transmitter                 Service          Reduction
                  Band 2                                               WLAN, BT                                        No
                  Band 4                                               WLAN, BT                     VoLTE              No
   LTE                                               (1)
                  Band 5             VD           No                   WLAN, BT                       /                No
  (FDD)
                 Band 13                                               WLAN, BT                   Google Duo           No
                 Band 66                                               WLAN, BT                                        No
                   2450                                                   LTE                       VoWiFi             No
  Wi-Fi            5200              VD           Yes                     LTE                         /                No
                   5800                                                   LTE                     Google Duo           No
   BT              2450               DT           No                     LTE                         NA               No
Type Transport:
VO= Voice only
DT= Digital Transport only (no voice)
VD= CMRS and IP Voice Service over Digital Transport
Remark:
1. The air interface is exempted from testing by low power exemption that its average antenna input power plus its MIF is ≤17
    dBm, and is rated as M4.




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seorrow cas. _HAC RF EMISSIONS TEST REPORT                                                                 Report No. : HA971010A
  6. Measurement System Specification

         Remote Control Box                         PC




          Signal Lamps                                                                     Electo—Ortical Commerter (E0C)
           <tlk»
                                                                                                             oae

                                                                                           (Ost. Ling
                                              Measurement Server
                                                                                                          E—feld ortfeld Probe

           Light Beam                                                                                                Device Under Test
                                                                  2x Serial +                                =
                                                                  Digtal ¥O
                                                                                           Phantom~—
                                                                                                                   I—Device Holder
                                                                                                                   —




       Teach Pendant
        t——GI                                  Robot Controller

         DO




                                                     Fig 5.1 System Configurations


  6.1 E—Field Probe System
  E—Field Probe Specification
  <ER3DV6>
  Construction                One dipole parallel, two dipoles normal to probe axis
                              Built—in shielding against static charges
  Calibration                 In air from 100 MHz to 3.0 GHz
                              (absolute accuracy +6.0%, k=2)
  efEcsy                      100 MHz to 6 GHz;
                              Linearity: + 2.0 dB (100 MHz to 3 GHz)
  Directivity                 + 0.2 dB in air (rotation around probe axis)
                              + 0.4 dB in air (rotation normal to probe axis)
  Dynamic Range               2 V/m to 1000 V/m
                              (M3 or better device readings fall well below diode
                              compression point)
  Linearity                   + 0.2 dB
  Dimensions                  Overall length: 330 mm (Tip: 16 mm)
                              Tip diameter: 8 mm (Body: 12 mm)
                              Distance from probe tip to dipole centers: 2.5 mm       Fig 5.2     Photo of E—field Probe
  Probe Tip Description:
  HAC field measurements take place in the close near field with high gradients. Increasing the measuring distance from the
  source will generally decrease the measured field values (in case of the validation dipole approx. 109&per mm}.




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seorton cas. _HAC RF EMISSIONS TEST REPORT                                                           Report No. : HA971010A
  6.2 Data Storage and Evaluation

  The DASY software stores the assessed data from the data acquisition electronics as raw data (in microvolt
  readings from the probe sensors), together with all the necessary software parameters for the data evaluation
  {probe calibration data, and device frequency and modulation data) in measurement files.


         Probe parameters :           — Sensitivity                      NOFM;: &ip; Aits Siz
                                      — Conversion factor                ConvF;
                                      — Diode compression point          dep;
         Device parameters :          — Frequency                        f
                                      — Crest factor                     cf
         Media parameters :           — Conductivity
                                      — Density                          p

         The formula for each channel can be given as :

                                                                     ,   _of
                                                       Vi:Ui+Ui W
                                                                                i

         with   V; = compensated signal of channel i, (i= x, y, z)
                U; = input signal of channel i, (i =x, y, z)
                cf = crest factor of exciting field (DASY parameter)
                dep; = diode compression point (DASY parameter)



         From the compensated input signals, the primary field data for each channel can be evaluated :

                                                                                    V
                                               E—field Probes : E; =
                                                                         Normp—ConvF


         with   V; = compensated signal of channel i, (i= x, y, z)
                 Norm; = sensor sensitivity of channel i, (i=x, y, z), pV/(V/m)2 for E—field Probes
                ConvF = sensitivity enhancement in solution
                f = carrier frequency [GHz]
                 E; = electric field strength of channel i in V/m



         The RSS value of the field components gives the total field strength (Hermitian magnitude) :


                                                      Erop =   [EZ + Ef + E2

         The primary field data are used to calculate the derived field units.




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         HAC RF EMISSIONS TEST REPORT                                                    Report No. : HA971010A
7. RF Emissions Test Procedure
Referenced from ANSI C63.19 -2011 section 5.5.1
a. Confirm the proper operation of the field probe, probe measurement system, and other instrumentation
   and the positioning system.
b. Position the WD in its intended test position.
c. Set the WD to transmit a fixed and repeatable combination of signal power and modulation characteristic
   that is representative of the worst case (highest interference potential) encountered in normal use.
   Transiently occurring start-up, changeover, or termination conditions, or other operations likely to occur
   less than 1% of the time during normal operation, may be excluded from consideration.
d. The center sub-grid shall be centered on the T-Coil mode perpendicular measurement point or the
   acoustic output, as appropriate. Locate the field probe at the initial test position in the 50 mm by 50 mm
   grid, which is contained in the measurement plane, refer to illustrated in Figure 8.2. If the field alignment
   method is used, align the probe for maximum field reception.
e. Record the reading at the output of the measurement system.
f. Scan the entire 50 mm by 50 mm region in equality spaced increments and record the reading at each
   measurement point, The distance between measurement points shall be sufficient to assure the
   identification of the maximum reading.
g. Identify the five contiguous sub-grids around the center sub-grid whose maximum reading is the lowest of
   all available choices. This eliminates the three sub-grids with the maximum readings. Thus, the six areas
   to be used to determine the WD's highest emissions are identified.
h. Identify the maximum reading within the non-excluded sub-grids identified in step g).
i. Indirect measurement method
j. The RF audio interference level in dB (V/m) is obtained by adding the MIF (in dB) to the maximum
   steady-state rms field-strength reading, in dB (V/m)
k. Compare this RF audio interference level with the categories in ANSI C63.19-2011 clause 8 and record
   the resulting WD category rating.
l. For the T-Coil perpendicular measurement location is ≥5.0 mm from the center of the acoustic output,
   then two different 50 mm by 50 mm areas may need to be scanned, the first for the microphone mode
   assessment and the second for the T-Coil assessment.
m. The second for the T-Coil assessment, with the grid shifted so that it is centered on the perpendicular
   measurement point. Record the WD category rating.




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         HAC RF EMISSIONS TEST REPORT                              Report No. : HA971010A




                         Figure 8.1 RF Emissions Flow Chart




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         HAC RF EMISSIONS TEST REPORT                                               Report No. : HA971010A




                       Fig 8.2 EUT reference and plane for HAC RF emission measurements




                                     Fig. 8.3 Gauge block with E-field probe




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           HAC RF EMISSIONS TEST REPORT                                                  Report No. : HA971010A
8. Test Equipment List
                                                                                              Calibration
 Manufacturer              Name of Equipment           Type/Model   Serial Number
                                                                                      Last Cal.        Due Date
   SPEAG                2450MHz Calibration Dipole     CD2450V3         1186        Jan. 30, 2019    Jan. 29, 2020
   SPEAG                  Isotropic E-Field Probe       EF3DV3          4047        Jan. 30, 2019    Jan. 29, 2020
   SPEAG                Data Acquisition Electronics     DAE4           914         Jun. 20, 2019    Jun. 19, 2020
    TESTO                      Hygro meter               608-H1       34913631      Aug. 27, 2018    Aug. 26, 2019
   SPEAG                    Test Arch Phantom             N/A           N/A             NCR                 NCR
   SPEAG                     Phone Positioner             N/A           N/A             NCR                 NCR
    Anritsu                    Power Meter              ML2495A       1218006       Oct. 08, 2018    Oct. 07, 2019
    Anritsu                   Power Sensor              MA2411B       1207363       Oct. 08, 2018    Oct. 07, 2019
    Anritsu                  Signal Generator          MG3710A       6201502524     Dec. 11, 2018    Dec. 10, 2019
     R&S                       Base Station             CMU200         103937       Jan. 17, 2019    Jan. 16, 2020
     ATM                 Dual Directional Coupler      C122H-10     P610410z-02         NCR                 NCR
    Woken                       Attenuator             WK0602-XX        N/A             NCR                 NCR
 Mini-Circuits                Power Amplifier           ZVE-8G+      070501814      Oct. 08, 2018    Oct. 07, 2019
  Mini-Circuits              Power Amplifier           ZHL-42W+        15542        Aug. 09, 2018    Aug. 08, 2019
Note:
1. NCR: “No-Calibration Required”




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         HAC RF EMISSIONS TEST REPORT                                                         Report No. : HA971010A
9. Measurement System Validation
Each DASY system is equipped with one or more system validation kits. These units, together with the predefined
measurement procedures within the DASY software, enable the user to conduct the system performance check and
system validation. System validation kit includes a dipole, tripod holder to fix it underneath the test Arch and a
corresponding distance holder.
The system performance check verifies that the system operates within its specifications. System and operator
errors can be detected and corrected. It is recommended that the system performance check be performed prior to
any usage of the system in order to guarantee reproducible results. The system performance check uses normal
HAC measurements in a simplified setup with a well characterized source. This setup was selected to give a high
sensitivity to all parameters that might fail or vary over time. The system check does not intend to replace the
calibration of the components, but indicates situations where the system uncertainty is exceeded due to drift or
failure.

<Test Setup>
1.   In the simplified setup for system evaluation, the EUT is replaced by a calibrated dipole and the power source is
     replaced by a continuous wave which comes from a signal generator.
2.   The center point of the probe element(s) is 15mm from the closest surface of the dipole elements.
3.   The calibrated dipole must be placed beneath the arch phantom. The equipment setup is shown below:
4.   The output power on dipole port must be calibrated to 20dBm (100mW) before dipole is connected.




                                                 Fig. 7.1 Setup Diagram

<Validation Results>
Comparing to the original E-field value provided by SPEAG, the verification data should be within its specification of
25 %. Table 6.1 shows the target value and measured value. The table below indicates the system performance
check can meet the variation criterion and the plots can be referred to appendix A of this report.
Deviation = ((Average E-field Value) - (Target value)) / (Target value) * 100%
                                                E-Field       E-Field        Average
 Frequency      Input Power Target Value                                                   Deviation
                                              above high     above low        Value                          Date
   (MHz)           (dBm)       (V/m)                                                         (%)
                                               end (V/m)     end (V/m)        (V/m)
     2450              20          84.1          91.58         92.05          91.82           9.17       Jul 18, 2019




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         HAC RF EMISSIONS TEST REPORT                                                         Report No. : HA971010A
10. Modulation Interference Factor
The HAC Standard ANSI C63.19-2011 defines a new scaling using the Modulation Interference Factor (MIF).
For any specific fixed and repeatable modulated signal, a modulation interference factor (MIF, expressed in dB)
may be developed that relates its interference potential to its steady-state rms signal level or average power level.
This factor is a function only of the audio-frequency amplitude modulation characteristics of the signal and is the
same for field-strength and conducted power measurements. It is important to emphasize that the MIF is valid only
for a specific repeatable audio-frequency amplitude modulation characteristic. Any change in modulation
characteristic requires determination and application of a new MIF
The Modulation Interference factor (MIF, in dB) is added to the measured average E-field (in dBV/m) and converts it
to the RF Audio Interference level (in dBV/m). This level considers the audible amplitude modulation components in
the RF E-field. CW fields without amplitude modulation are assumed to not interfere with the hearing aid electronics.
Modulations without time slots and low fluctuations at low frequencies have low MIF values, TDMA modulations
with narrow transmission and repetition rates of few 100 Hz have high MIF values and give similar classifications as
ANSI C63.19-2011.
ER3D, EF3D and EU2D E-field probes have a bandwidth <10 kHz and can therefore not evaluate the RF envelope
in the full audio band. DASY52 is therefore using the indirect measurement method according to ANSI C63.19-2011
which is the primary method. These near field probes read the averaged E-field measurement. Especially for the
new high peak-to-average (PAR) signal types, the probes shall be linearized by PMR calibration in order to not
overestimate the field reading. Probe Modulation Response (PMR) calibration linearizes the probe response over
its dynamic range for specific modulations which are characterized by their UID and result in an uncertainty
specified in the probe calibration certificate. The MIF is characteristic for a given waveform envelope and can be
used as a constant conversion factor if the probe has been PMR calibrated.
The evaluation method for the MIF is defined in ANSI C63.19-2011 section D.7. An RMS demodulated RF signal is
fed to a spectral filter (similar to an A weighting filter) and forwarded to a temporal filter acting as a quasi-peak
detector. The averaged output of these filtering is scaled to a 1 kHz 80% AM signal as reference. MIF measurement
requires additional instrumentation and is not well suited for evaluation by the end user with reasonable uncertainty.
It may alliteratively be determined through analysis and simulation, because it is constant and characteristic for a
communication signal. DASY52 uses well-defined signals for PMR calibration. The MIF of these signals has been
determined by simulation and it is automatically applied.
The MIF measurement uncertainty is estimated as follows, declared by HAC equipment provider SPEAG, for
modulation frequencies from slotted waveforms with fundamental frequency and at least 2 harmonics within 10 kHz:
1.    0.2 dB for MIF: -7 to +5 dB
2.    0.5 dB for MIF: -13 to +11 dB
3.    1 dB for MIF: > -20 dB
MIF values applied in this test report were provided by the HAC equipment provider of SPEAG, and the worst
values for all air interface are listed below to be determine the Low-power Exemption.

                       UID                    Communication System Name                    MIF(dB)
                       10170             LTE-FDD(SC-FDMA,1RB,20MHz,16-QAM)                  -9.76
                       10061            IEEE 802.11b WiFi 2.4 GHz (DSSS, 11 Mbps)           -2.02
                       10077         IEEE 802.11g WiFi 2.4 GHz (DSSS/OFDM, 54 Mbps)         0.12
                       10427          IEEE 802.11n (HT Greeneld, 150 Mbps, 64-QAM)         -13.44
                       10616        IEEE 802.11ac WiFi (40MHz, MCS0, 90pc duty cycle)       -5.57




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          HAC RF EMISSIONS TEST REPORT                                                         Report No. : HA971010A
11. Low-power Exemption
<Max Tune-up Limit>
                                                Average Power
                   Mode
                                                    (dBm)
                             Band 2                   24
                             Band 4                   24
      FDD LTE                Band 5                   24
                            Band 13                   24
                            Band 66                   24
                            802.11b                 19.5
                            802.11g                 16.5
     2.4GHz WLAN
                          802.11n-HT20                16
                          802.11n-HT40                14
                          802.11n-HT20                18
                          802.11n-HT40              17.5
     5GHz WLAN           802.11ac-VHT20             18.5
                         802.11ac-VHT40             17.5
                         802.11ac-VHT80               17



<Low Power Exemption>
                                      Max Average
                                                                Worst Case      Power +                C63.19 test
         Air Interface                Antenna Input
                                                                 MIF (dB)       MIF(dB)                 required
                                      Power (dBm)
          LTE - FDD                        24                     -9.76          14.24                     No
           802.11b                        19.5                    -2.02          17.48                     Yes
           802.11g                        16.5                     0.12          16.62                     No
         802.11n-HT20                      16                     -13.44         2.56                      No
         802.11n-HT40                      14                     -13.44         0.56                      No
         802.11n-HT20                      18                     -13.44         4.56                      No
         802.11n-HT40                     17.5                    -13.44         4.06                      No
       802.11ac-VHT20                     18.5                    -5.57          12.93                     No
       802.11ac-VHT40                     17.5                    -5.57          11.93                     No
       802.11ac-VHT80                      17                     -5.57          11.43                     No

General Note:
1.    According to ANSI C63.19 2011-version, for the air interface technology of a device is exempt from testing
      when its average antenna input power plus its MIF is ≤17 dBm for any of its operating modes.
2.    HAC RF rating is M4 for the air interface which meets the low power exemption.




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seorrow cas. _HAC RF EMISSIONS TEST REPORT                                                            Report No. : HA971010A
  12. Conducted RF Output Power (Unit: dBm)

                                                                                   Frequency
                                                              Channel                ues                 Average power (dBm)

           2.4GHz WLAN

                                 802.1 1b 1 Mbps
                                                                 11                  2462                           18.72




  13. HAC RF Emission Test Results

  CANo.h       1
              PCcc                                 Channel
                                                              ytenna
                                                              Input
                                                                                       Cl
                                                                                      (dBV/im)
                                                                                                      sc i      Mak
                                                                                                    FCC(I(\jIIg)Ilmlt
                                                                                                                        cactt
                                                                                                                         —Fie
                                                                                                                        Ee
                                                             Power (dBm}
       1      WLANZ.4GHz     802.11b 1Mbps            1         18.63      —2.02       29.04             5.96               M4
       2      WLANZ.4GHz     802.11b 1Mbps            6         18.74      —2.02       27.50             7.50               M4
       3      WLANZ.4GHz     802.11b 1Mbps           11         18.72      —2.02       25.94             9.06               M4

  Remark:
  1.       The HAC measurement system applies MIF value onto the measured RMS E—field, which is indirect method in
           ANSI C63.19 2011 version, and reports the RF audio interference level.
  2.       Phone Condition: Mute on; Backlight off; Max Volume


           Test Engineer : Nick Yu.




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         HAC RF EMISSIONS TEST REPORT                                                     Report No. : HA971010A
14. Uncertainty Assessment
The component of uncertainly may generally be categorized according to the methods used to evaluate them.
The evaluation of uncertainly by the statistical analysis of a series of observations is termed a Type A
evaluation of uncertainty. The evaluation of uncertainty by means other than the statistical analysis of a series
of observation is termed a Type B evaluation of uncertainty. Each component of uncertainty, however
evaluated, is represented by an estimated standard deviation, termed standard uncertainty, which is
determined by the positive square root of the estimated variance.


The combined standard uncertainty of the measurement result represents the estimated standard deviation of
the result. It is obtained by combining the individual standard uncertainties of both Type A and Type B
evaluation using the usual “root-sum-squares” (RSS) methods of combining standard deviations by taking the
positive square root of the estimated variances. Expanded uncertainty is a measure of uncertainty that
defines an interval about the measurement result within which the measured value is confidently believed to
lie. It is obtained by multiplying the combined standard uncertainty by a coverage factor. For purpose of this
document, a coverage factor two is used, which corresponds to confidence interval of about 95 %. The DASY
uncertainty Budget is showed in Table 12.1.


The judgment of conformity in the report is based on the measurement results excluding the measurement
uncertainty.




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seorrow cas. _HAC RF EMISSIONS TEST REPORT                                                         Report No. : HA971010A




  Probe Calibration                       .           Normal                                           £5.1 %
  Axial Isot                              .         Rectangular                                        42.7 %
  Sensor Displacement                               Rectangular                                        +9.5 %
  Boundary Effects                        .         Rectangular                                        £1.4%
  Phantom Boundary Effects                .         Rectangular                                        441 %
  Linearity                               .         Rectangular                                        +2.7 %
  Scaling    with PMR Calibration                   Rectangular                                       £5.77 %
  System Detection Limit                  .         Rectangular                                        +0.6 %
  Readout Electronics                     .           Normal                                           +0.3 %
  Response Time                           .         Rectangular                                        +0.5 %
  Integration Time                        .         Rectangular                                        £1.5%
  RF Ambient Conditions                   .         Rectangular                                        £1.7 %
  RF Reflections                                    Rectangular                                        +6.9 %
  Probe Positioner                        .         Rectangular                                        + 0.7 %
  Probe Positionin:                       .         Rectangular                                        42.7 %
  Extrap. and Interpolation               .         Rectangular                                        +0.6 %


  Device Positioning Vertical             .         Rectangular                                        +2.7 %
  Device Positioning Lateral              —         Rectangular                                        +0.6 %
  Device Holder and Phantom               .         Rectangular                                        41.4%
  Power Drift                             —         Rectangular                                        +2.9 %


  Phantom Thickness                       .         Rectangular                                        £1.4%
  Combined Standard Uncertainty                                                                       +16.30%
  Coverage Factor for 95 %                                                                              K=2




                              Table 12.1 Uncertainty Budget of HAC free field assessment
            Remark:
            Worst—Case uncertainty budget for HAC free field assessment according to ANSIC63.19 [1], [2]. The budgetis
            valid for the frequency range 700 MHz — 3 GHz and represents a worst case analysis.




  TEL : 886—3—327—3456                                                                              Page : 18 of 19
  FAX : 886—3—328—4978                                                                        Issued Date : Aug. 08, 2019
  Form version: 181113


         HAC RF EMISSIONS TEST REPORT                                               Report No. : HA971010A

15. References
 [1]   ANSI C63.19-2011, “American National Standard for Methods of Measurement of Compatibility
       between Wireless Communications Devices and Hearing Aids”, 27 May 2011.
 [2]   FCC KDB 285076 D01v05, “Equipment Authorization Guidance for Hearing Aid Compatibility”, Sep
       2017
 [3]   FCC KDB 285076 D02v03, “Guidance for performing T-Coil tests for air interfaces supporting voice
       over IP (e.g., LTE and WiFi) to support CMRS based telephone services”, Sep 2017
 [4]   FCC KDB 285076 D03v01, “Hearing aid compatibility frequently asked questions”, Sep 2017
 [5]   SPEAG DASY System Handbook




TEL : 886-3-327-3456                                                                  Page : 19 of 19
FAX : 886-3-328-4978                                                           Issued Date : Aug. 08, 2019
Form version: 181113



Document Created: 2019-08-08 14:04:09
Document Modified: 2019-08-08 14:04:09

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